English for Science and Engineering Students.-1

Министерство образования и науки Российской Федерации Федеральное государственное бюджетное образовательное учреждение высшего образования

«Томский государственный университет систем управления и радиоэлектроники»

ENGLISH FOR SCIENCE AND ENGINEERING STUDENTS:

Professional Reading

Учебно-методическое пособие по самостоятельной работе

для студентов направлений бакалавриата РТФ, ФЭТ, ФВС, РКФ

Томск

ТУСУР

2017

2

От авторов

Настоящее учебно-методическое пособие является составной частью УМК

English for Science and Engineering Students для студентов направлений бакалавриата РТФ, ФЭТ, ФВС, РКФ.

Оно содержит профессионально-ориентированные тексты, рекомендованные для чтения при подготовке к устной части экзамена - презентации по профессиональной тематике.

Тексты пособия отобраны с учетом их информативности и соответствия последним достижениям науки и техники.

В приложении даны практические рекомендации по подготовке презентации.

Л.Б. Кадулина, Л.Е. Лычковская, Е.И. Нижевич

3

Text 1

WHAT ARE TELECOMMUNICATIONS?

Telecommunications, also called telecommunication, is the exchange of information over significant distances by electronic means. A complete, single telecommunications circuit consists of two stations, each equipped with a transmitter and a receiver. The transmitter and receiver at any station may be combined into a single device called a transceiver. The medium of signal transmission can be electrical wire or cable (also known as “copper”), optical fiber or electromagnetic fields. The free-space transmission and reception of data by means of electromagnetic fields is called wireless.

The simplest form of telecommunications takes place between two stations. However, it is common for multiple transmitting and receiving stations to exchange data among themselves. Such an arrangement is called a telecommunications network. The Internet is the largest example. On a smaller scale, examples include:

corporate and academic wide-area networks (WANs); telephone networks;

police and fire communications systems; taxicab dispatch networks;

groups of amateur radio operators.

Data is conveyed in a telecommunications circuit by means of an electrical signal called the carrier or carrier wave. In order for a carrier to convey information, some form of modulation is required. The mode of modulation can be broadly categorized as either analog or digital. In analog modulation, some aspect of the carrier is varied in a continuous fashion. The oldest form of analog modulation is amplitude modulation (AM), still used in radio broadcasting at some frequencies. Digital modulation actually predates analog modulation; the earliest form was Morse code. During the 1990s, dozens of new forms of modulation were developed and deployed, particularly during the so-called “digital revolution” when the use of computers among ordinary citizens became widespread.

In some contexts, a broadcast network, consisting of a single transmitting station and multiple receive-only stations, is considered a form of telecommunications. Radio and television broadcasting are the most common examples.

Telecommunications and broadcasting worldwide are overseen by the International Telecommunication Union (ITU), an agency of the United Nations (UN) with headquarters in Geneva, Switzerland. Most countries have their own agencies that enforce telecommunications regulations formulated by their governments.

4

1.1. Match the English terms with their definitions.

1.2. Match the verbs in box A with the nouns in box B to make phrases (according to the text) and translate them.

1.3.Match up the words which have a similar meaning.

5

1.4. Fill in the table according to the text.

Forms of the medium of signal transmission

Examples of telecommunications network

The oldest form of analog modulation

The earliest form of digital modulation

The most common forms of telecommunications

Organizations for overseeing telecommunications and broadcasting

1.5.Read the text again and answer the questions.

1.What is telecommunication?

2.What does a single telecommunications circuit consist of?

3.What kind of device are the transmitter and receiver combined into?

4.What is wireless (transmission and reception)?

5.Which network is the largest?

6.How is data in a telecommunication circuit conveyed?

7.How can the mode of modulation be broadly categorized?

8.When were dozens of new forms of modulation developed and deployed?

1.6.Read the following sentences and say whether they are true (T) or false (F).

1.Telecommunication is the exchange of information by electric means.

2.A complete, single telecommunications circuit consists of two stations, each equipped with a transmitter.

3.The transmitter and receiver at any station may be combined into a single device called a transceiver.

4.The medium of signal transmission can be electrical wire or cable (also known as “copper”), optical fiber or electromagnetic fields.

5.The free-space transmission and reception of data by means of electromagnetic fields is called wireless.

6.The simplest form of telecommunications takes place between three stations.

7.Internet is the largest telecommunications network.

8.Data is conveyed in a telecommunications circuit by means of an electronic signal.

9.The mode of modulation can be broadly categorized as either analog or digital.

10.Amplitude modulation (AM) is the earliest form of analog modulation.

6

Text 2

LAN vs WAN

Local area networks and wide area networks are essentially the same in many aspects. They only differ in the area that is covered by the network. LANs are networks that are limited to a small geographic location. The computers connected to the network could be in a single room, a few rooms, or spread out in an entire building. WANs, on the other hand, cover great distances and are not limited to a single location. The biggest and most popular example of a WAN is the internet, which spans the whole globe and has millions of computers connected to it.

LANs are very common nowadays, it is commonplace in a work environment and even at home. It is necessary to implement a local area network in order to connect multiple computers to the internet using a single DSL line. With regard to speed, LAN usually operates at much higher rates compared to WAN. This is largely due to the proximity of the computers and the lack of congestion in most cases. It is common to experience up to 80 or 90 mbps in a LAN while achieving 10 to 20mbps is already a great achievement for WAN.

LAN can be more secure due to the fact that all the computers are within a specific area and are physically easier to secure. The data on a wide area network needs to pass across public phone lines in order to reach its intended destination. The data is then vulnerable to attack by anyone with the right skills to penetrate your network.

Unlike LAN, there is just no physical way of securing it, that’s why electronic features are the only defense structure in place.

Cost also varies greatly between the two. Deploying a LAN is relatively much easier and cheaper than a WAN. It wouldn’t require more than the cables, some switches, and optionally, routers to those who want to connect to the internet. With WAN, the long distances that the data travels would need miles and miles of cabling, or in some cases satellites. Signal deterioration is also a very real problem for WANs, that’s why repeaters are used at intervals to amplify or rebuild the original signal.

Summary:

LAN covers a small area while WAN covers a significantly larger area. LAN speeds are also significantly faster than WAN.

LAN is more secure than WAN.

WAN is much more expensive to implement than LAN.

7

2.1.Match the English terms with their definitions.

2.2. Match up the words which have a similar meaning.

2.3.Read the text again and answer the questions.

1.How do LANs and WANs differ according to their geographic location?

2.What is the biggest and most popular example of a WAN?

3.What should be done in order to connect computers to the internet?

4.Which of the networks operates at higher rates: LAN or WAN?

5.Why can LAN be more secure than WAN?

6.Which of the networks is easier and cheaper to deploy and why?

7.What is a very real problem for WANs?

8.What are repeaters used for?

2.4.Read the following sentences and say whether they are true (T) or false (F).

1.LANs and wide WANs are very different in many aspects.

2.LANs are networks that are limited to a small geographic location.

3.WANs are not limited to a single location.

4.WAN usually operates at much higher rates compared to LAN.

5.LAN is much more expensive to implement than WAN.

8

Text 3

REMOTE CONTROL

The widespread use of television remote controls has turned people in coach potatoes. We can change channels, adjust the sound and the picture, and do a lot of other actions on the teletext systems with the push of a button.

A remote control is a device for controlling equipment from a short line-of-sight distance. This electronic device is used for operating the television set wirelessly. The remote control can be contracted to “remote” or “controller”. Usually remote controls are consumer infrared (IR) devices used to command from a distance to televisions or other consumer electronics .

Most of modern remote controls communicate with their respective devices via IR signals and a few via radio signals. Television IR signals can be mimicked by a universal remote which is able to emulate the functionality of most major brand television remote controls. They are usually powered by small AAA or AA or sometimes A23 size batteries.

One of the earliest examples of remote control was developed in 1898 by Nicola Tesla. He demonstrated a radio-controlled boat to the public during an electrical exhibition in New-York. Tesla called his boat a “teleautomation”. In 1903 Leonardo Torres Quevedo presented the “Telekino” at the Paris Academy of Science. The “Telekino” consisted of a robot that executed commands transmitted by electromagnetic waves. It meant the world’s first apparatus for radio control and was a pioneer in the field of remote controls.

The first remote controlled model aeroplane flew in 1932 and the use of remote control technology for military purposes was worked intensively during the Second World War.

The first remote which was intended to control a television was developed by Zenith

Radio Corporation in 1950. The remote called “Lazy Bones” was connected to the television by a wire. A wireless remote control called the “Flashmatic” was developed in

1955. It worked by shining a beam of light onto a special cell but the cell did not distinguish between light from the remote and light from other sources. The “Flashmatic” also had to be pointed very precisely at the receiver in order to work. In the 1970s remote controls used ultrasonic tones.

A modern remote control contains keys and electronic components similar to those of a calculator. The keys are connected by wires which cross beneath each individual key. Pressing a key completes an electrical circuit and a signal is sent to a microchip which, in turn, sends a series of on-off electrical pulses to a light-emitting diode (LED) at the front of the handset. A code spelt out by the length and spacing of these pulses switches on the LED. The LED flashes on and off to send an infrared beam to the receiving ‘eye” on the television set.

Since the first remote control there have been a lot of stages of its development. Nowadays the remote control is used in military, space, video games, photography and other fields of science.

“Couch potatoes” are people who spend most of their time sitting on a couch (sofa) watching television.

9

3.1.Decide if the statements are true or false.

1.Couch potatoes are very useful vegetables.

2.A modern remote control looks like a calculator.

3.Remote controls are powered by solar energy.

4.A wireless handset was created in 1955.

5.A remote control is only used to change channels.

6.The first remote control was developed and demonstrated in 1988.

7.The controller called “Lazy Bones” was attached to the television by a wire.

8.The LED flashes on and off to send an ultraviolet beam to the receiving

“eye” on the TV set.

9.The “Flashmatic” had to be pointed to very accurately at the receiver in order to work.

10.The Telekino robot executed commands transmitted by sound waves.

3.2.Answer the questions on the text.

1.What can you do using remote control?

2.How does a remote control work?

3.What consumer IR devices can work with remote controls?

4.How do modern remotes communicate with their respective devices?

5.What batteries do remote controls need?

6.How are modern remote controls used?

7.Is a remote control a useful device? Prove your answer.

3.3.Read paragraph 6 again and complete the gaps to show how a remote control works.

1.You press a key.

2.… .

3.A signal is sent to a microchip.

4.… .

5.These pulses switch on the LED.

6.… .

3.4.Complete the table.

10